EP0512183A1 - Insulating shuttering-element for concrete - Google Patents

Abstract

The invention relates to an insulating shuttering element for concrete intended in particular for the building industry for the construction of solid elements. The insulating shuttering element (1) is formed from a shuttering-forming metal sheet (2) and from a rear metal sheet (3) which enclose between them an insulating material (4) such as a polyurethane foam. According to the invention, the shuttering element (1) has evenly distributed means for bonding the insulating material (4) to the metal sheets (2 and 3). These bonding means are in the form of wire nettings (5 and 6) embedded in the insulating material (4) and fixed to the metal sheets (2 and 3). The invention concerns the manufacturers of building site equipment. <IMAGE>

Description

The invention relates to an insulated panel for concrete formwork, intended in particular for the building industry for the construction of massive elements. It mainly concerns manufacturers of construction site equipment for the building industry.

More and more frequently, the building industry uses the technique of molded concrete to produce the various construction elements. These offer many technical and economic advantages compared to traditional building materials such as brick or concrete block. In particular, the implementation times on construction sites are reduced which allows a significant saving of labor.

Two techniques are known mainly for using molded concrete. First, the parts are produced in the factory and are transported to the site where they are assembled. For mass production, this is advantageous but finds its limit in the size of parts. Next, the technique of pouring fresh concrete on site into formwork is known to form the parts directly. This technique is more widely used because it is more flexible.

Originally, wooden forms were used but they were gradually replaced by stronger and more resistant metal forms which are very convenient to use because of their modular appearance. These metal forms are formed by an assembly of formwork which form the retaining walls of the poured concrete.

This technique of pouring concrete in situ already widely developed has been significantly improved with the appearance of isothermal formwork. This characteristic makes it possible to take advantage of the exothermic reaction encountered when setting the fresh concrete. The insulated formwork prevents the calories generated by the chemical reaction from being dissipated in nature, which causes the temperature of the concrete mass to rise, resulting in faster drying and improved properties. This acceleration of drying time is highly appreciated economically and this has largely contributed to the development of isothermal formwork.

Currently, an insulated panel comprises a shuttering sheet forming the face located on the concrete side and a rear sheet forming the outer face. Between these sheets there is a mattress of insulating material such as polyurethane foam. By correctly preparing the surface of the shuttering and rear sheets, it is possible to adhere the foam to the sheet to form a compact unit. Unfortunately, in practice, experience shows that very often there is a decohesion between sheets, more particularly the shuttering sheet, and the insulating foam. This occurs in the event of high stress when the surface of the sheet has not been previously treated satisfactorily. When the connection between the sheet and the foam breaks, there is a loss of insulating property and the formwork must be reformed.

The discovery of this drawback made it possible to put in place means avoiding decohesion. The main object of the present invention is to present an extremely robust compact insulated panel. In particular, the connection between sheets and insulating material has been taken care of in order to be able to withstand the most severe constraints. It should be emphasized that this mechanical reinforcement takes into account the fragility of the insulating material thanks to a general distribution of the stresses.

Of course, the respect for the insulation is totally maintained and it should be emphasized in this regard that the traditional fixing means by bolting, riveting cannot be used because of the thermal bridges they cause.

The search for an effective means of connection between an insulating material and a sheet has also been oriented for the sake of economy so as not to handicap the product by excessive cost.

Other objects and advantages of the present invention will emerge during the description which follows which is however given only for information.

The isothermal formwork for concrete formwork, intended in particular for the building industry for the construction of solid elements, formed of a formwork sheet and a rear sheet between which is placed an insulating material such as polyurethane foam, is characterized in that it has means for attaching the material insulation on the formwork sheet.

• la figure 1 schématise en vue de coupe la banche isotherme de la présente invention munie de ses moyens d'accrochage.

The invention will be better understood on reading the following description, accompanied by an attached drawing:

• Figure 1 shows schematically in section the insulated panel of the present invention provided with its attachment means.

The present invention relates to an isothermal formwork for concrete formwork, intended in particular for the building industry for the construction of solid elements.

The building industry increasingly uses molded concrete elements for the construction of buildings, mainly because of the mechanical properties of this material and the economic advantage of this technique. For this, the concrete is transported to the site in spinning tops where it is poured into modular metal formwork.

Given the exothermic reaction encountered when setting the concrete, it is possible to take advantage of this property to accelerate the drying of the concrete by using isothermal forms. For this, the forms which form the formwork are made using an internal shuttering sheet, an outer sheet and a mat of intermediate insulating material.

Unfortunately, in practical terms, it is a fragile formwork due to the only chemical bonding by gluing. It is desirable, according to the invention, to add a mechanical coupling in addition to the chemical bonding by gluing to relieve the shear stresses at the interface. The main difficulty being to design attachment means respecting thermal insulation, knowing that it is also necessary to be compatible with a fragile material such as insulating foam and to be economical. The main traditional fixing means known to those skilled in the art, such as screws for example, cannot be used because of the thermal bridges they create and the lack of resistance of the polyurethane foam which offers no solid grip. It is in this spirit that the present invention has been developed, the object of which is to distribute the stress throughout the insulating mass.

The general construction of a form is well known to those skilled in the art. It uses metallic materials for their machining property and mechanical resistance. The rear face of the panel is generally stiffened by stiffeners, the assembly receives stabilizing brackets at the base and includes means for hooking at the periphery. At this level, the insulated panel of the present invention differs from existing forms by the internal fixing of the insulating material on the sheets as shown in Figure 1 which shows an insulated panel (1) in section view. This consists of a shuttering sheet (2) which represents the face of the formwork (1) intended to be in contact with the molded concrete, and a rear plate (3) which constitutes the external face of the formwork (1). These sheets are analogous to those traditionally used for making insulated forms.

The central part of the sheet contains an insulating material (4), traditionally it is polyurethane foam, however other materials could perfectly be used. Polyurethane foam is relatively fragile in the sense that it cannot withstand significant mechanical stresses. However, it is particularly important that contact is perpetually ensured between the shuttering sheet (2) and the insulating material (4) to give the formwork the insulating property and ensure maximum performance in its resistance to deformation under the concrete push.

According to the invention, the panel (1) has means for attaching the insulating material (4) to the formwork sheet (2). These attachment means ensure the fixing and plating of the insulating foam (4) on the internal face of the shuttering sheet (2). In addition, the attachment means ensure uniform fixing of the foam (4) over the entire internal surface of the formwork sheet (2). this is particularly important for the distribution of stresses. Indeed, a point fixation even if there are several, localizes the stress at precisely these fixings and there is a risk of tearing the foam due to a disparity of internal forces.

According to the present invention, the attachment means are in the form of a grid (5) fixed on the formwork sheet (2) and embedded in the insulating material. The mesh (5) extends over the entire surface of the foam (4) near the shuttering sheet (2).

When filling the polyurethane foam (4), this mesh is embedded in the foam and this connection completes that resulting from the adhesion of the foam on the sheet itself during the manufacturing phase.

A concrete trellis can perfectly be used as a mesh (5).

The attachment means are made with a structure and a material allowing physical and mechanical attachment. These attachment means can be made of expanded metal.

Although this is less necessary, advantageously hooking means will be used to also fix the insulating material (4) on the rear sheet (3). These attachment means will ensure a uniform distribution of the stress within the foam (4) to avoid any tearing of the latter. In the same way as for the shuttering sheet (2), a screen (6) embedded over the entire surface of the foam (4) near the rear sheet (3) will be used to fix said screen (6) on the sheet rear (3).

The use of a wire mesh allows anchoring the formwork and rear sheets in the insulating foam and as such, one could also use perforated sheets or any other structure which respects the mass of foam as an assembly in which said structure is a prisoner.

Other implementations of the present invention, within the reach of ordinary skill in the art, could also be considered without departing from the framework thereof.

Claims (8)

Isothermal formwork for concrete formwork, intended in particular for the building industry for the construction of solid elements, formed of a shuttering sheet (2) and a rear sheet (3) between which is placed an insulating material (4 ) such as a polyurethane foam, characterized in that it has means for attaching the insulating material (4) to the formwork sheet (2). Isothermal panel, according to claim 1, characterized in that it has means for attaching the insulating material (4) to the rear sheet (3). Isothermal panel, according to claim 1 or 2, characterized in that the attachment means ensure a uniform distribution of the stresses in the insulating material (4). Isothermal panel, according to claim 3, characterized in that the means are in the form of a grid (5 or 6) embedded in the insulating material (4) and fixed at least on one of the sheets (2 or 3) . Isothermal panel, according to claim 4, characterized in that the grids (5 or 6) are fixed to the sheets (2 and 3). Isothermal panel, according to claim 4, characterized in that the grid (5 or 6) is in the form of a concrete lattice. Isothermal panel, according to claim 1, characterized in that the attachment means are made with a structure and a material allowing physical and mechanical attachment. Isothermal panel, according to claim 1, characterized in that the hooking means are made of expanded metal.

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